JP6446232B2 - Feeding container - Google Patents

Description

  The present invention relates to a feeding container.

Conventionally, an outer cylindrical portion having a spiral groove formed on the inner peripheral surface, a first guide hole that is disposed in the outer cylindrical portion so as not to move in the axial direction and to be movable around the axial line, and extends in the axial direction; An inner cylinder portion in which the second guide hole is formed, an axial movement in the inner cylinder portion, and an auxiliary guide hole extending in the axial direction and a first guide hole are slidably engaged. A cylindrical skirt portion formed with a first guide projection to be joined, a support pan and an auxiliary member that are disposed in the skirt portion so as to be movable up and down along the axial direction, and whose rod-shaped contents are erected upward An elevating member including a guide hole and a second guide protrusion that engages with the spiral groove through the second guide hole, and the auxiliary guide hole is positioned on both sides sandwiching the small width portion and the small width portion in the axial direction. A wide portion is formed, and the second guide projection is an auxiliary guide hole, Feeding containers arranged in the wide portion positioned below the iris is known.
In this feeding container, when the outer tube portion and the inner tube portion are rotated relative to each other about the axis, the elevating member is in the skirt until the first guide projection is locked to the upper locking portion of the first guide hole. After the first guide projection is locked to the upper locking portion of the first guide hole, the second guide projection is in sliding contact with the small width portion of the auxiliary guide hole in a compressed state. By climbing over the small width portion, only the elevating member rises, and the lower end portion of the rod-shaped contents on the support pan is exposed upward from the outer tube portion.

Japanese Patent No. 3510354

  However, in the conventional feeding container, after the first guide protrusion is locked to the upper locking portion of the first guide hole, that is, the remaining amount of the bar-shaped content is reduced, and the bar-shaped content on the support plate is reduced. When the lower end portion is exposed upward from the outer cylinder portion, the second guide protrusion is slidably contacted with the small width portion of the auxiliary guide hole so that the small width portion of the auxiliary guide hole is pushed by the second guide protrusion. Because it was widened, it required great power.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a feeding container that can expose the lower end portion of a rod-shaped content on a support pan to the outside with less force. .

In order to solve the above problems, the present invention proposes the following means.
The feeding container according to the present invention is provided with an outer cylindrical portion having a spiral groove formed on an inner peripheral surface thereof, and is disposed in the outer cylindrical portion so as not to move in the axial direction but to be movable around the axial line. An inner cylinder portion formed with an extending guide hole, and a guided projection and a rod-shaped content which are disposed in the inner cylinder portion so as to be movable up and down along the axial direction and engage with the spiral groove through the guide hole An elevating member provided with a support plate erected toward the container, wherein the elevating member includes a guided cylinder portion from which the guided projection protrudes from an outer peripheral surface, and the support plate. A support body disposed in the guided cylinder portion so as to be freely raised, and a lower end portion of the rod-shaped content is accommodated in a portion of the guided cylinder portion located above the support plate, In the outer cylinder portion, it is disposed so as to be rotatable around an axis. , When rotated about the axis, it said engaged with the support the operation portion support increases with respect to the guided cylinder portion is provided with, and the support and the operating unit, the operating unit When the shaft rotates about the axis, it engages so as to be relatively non-rotatable around the axis and relatively movable up and down along the axial direction, and the support is screwed up and down into the guided cylinder portion. It is attached and rises by rotating to one side along the axis with respect to the guided cylinder, and descends by rotating to the other side along the axis with respect to the guided cylinder. And

In this case, when the outer cylinder part and the inner cylinder part are relatively rotated around the axis, the guided protrusion slides in the guide hole and the spiral groove, so that the elevating member rises in the inner cylinder part. Thereby, the protrusion amount from the inner cylinder part and outer cylinder part of a rod-shaped content is adjusted, and a rod-shaped content is used from an upper end part.
When the remaining amount of the rod-shaped contents decreases and the protrusion of the rod-shaped contents disappears or becomes shorter, the support body is rotated by rotating it around the axis while engaging the operation section with the support body. Is raised with respect to the guided cylinder portion, and the lower end portion of the rod-like content is greatly protruded upward from the guided cylinder portion. As a result, the lower end portion of the rod-shaped contents is exposed to the outside.
As described above, when the remaining amount of the rod-like contents decreases, the rod-like contents are obtained by rotating the support body with respect to the guided cylinder portion by rotating the operation portion around the axis while engaging the support body. The lower end of the object can be exposed to the outside with a small force.

In this case, the support unit rotates together with the operation unit by engaging the support unit when the operation unit rotates about the axis. The support body is screwed into the guided cylinder portion so as to be movable up and down. When the support body rotates to one side along the axis along with the operation section, the support body tends to rise in the guided cylinder portion. At this time, since the support body and the operation portion are engaged with each other so as to be movable up and down relatively along the axial direction, the support body smoothly rises in the guided cylinder portion without being obstructed by the operation portion. .
As described above, by rotating the support body together with the operation portion and rotating the support body to one side along the axis, the support body can be smoothly raised in the guided cylinder portion. Therefore, the lower end part of the rod-shaped contents can be reliably exposed to the outside with a small force.

The guided cylinder part and the support body are provided with respective engaging protrusions that engage with each other so as to be able to climb over an axis and restrict the rotation of the support body to the one side with respect to the guided cylinder part. The engaging protrusions allow the support body to rotate to the one side with respect to the guided cylinder portion when the engaging protrusions get around each other around the axis , and the engaging protrusions support the support body with respect to the guided cylinder section. In a state where the rotation to the one side is allowed, the support body may be raised by rotating to the one side with respect to the guided cylinder portion .

In this case, when the rotational force is very small even if the operating projection is inadvertently applied, for example, in a state where the engaging projections on the guided cylinder and the support are engaged with each other In this case, the rotation of the support is restricted by the engagement protrusion, and the unintended rotation of the support is restricted.
On the other hand, in this state, when rotating the support body to one side along the axis line through the operation part, simply by getting over the engaging projections in the guided cylinder part and the support body around the axis line, The restriction on the rotation of the support is released.
As described above, by providing the engagement projections separately on the guided cylinder portion and the support body, unintended rotation of the support body can be restricted while suppressing the force required for the rotation of the support body. Thereby, the operativity of a delivery container can be improved.

  The guided cylinder part and the support body allow the support body to rotate relative to the guided cylinder part while allowing the support body to rotate toward the other side. The ratchet part to regulate may be provided.

  In this case, a ratchet portion is provided on the guided cylinder portion and the support body. Therefore, after rotating and raising the support body, for example, when applying while pressing the rod-shaped contents against the part to be coated, it is directed to the support body via the rod-shaped contents toward the other side along the axis. Even when a rotational force is applied, rotation toward the other side of the support can be restricted by the ratchet portion. Thereby, it becomes possible to regulate the unintentional descent | fall of a support body, and the convenience of a delivery container can be improved.

  An operation groove is formed in the lower end portion of the operation portion so as to be exposed downward and into which the operation piece can enter from the outside, and when the operation piece that has entered the operation groove rotates around an axis. The operation piece may rotate together with the operation portion by engaging with the operation groove.

  In this case, when the operation piece entering the operation groove rotates around the axis, the operation piece rotates together with the operation unit by engaging with the operation groove, so that the operation unit is not operated directly from the outside. It is possible to rotate the operation portion via the operation piece, and it is possible to improve the operability of the feeding container and to prevent an unexpected operation.

  According to the present invention, the lower end portion of the rod-shaped contents on the support pan can be exposed to the outside with less force.

It is a longitudinal cross-sectional view of the delivery container which concerns on 1st Embodiment of this invention. It is a longitudinal cross-sectional view of the delivery container shown in FIG. 1, Comprising: It is a figure which shows the state which raised the raising / lowering member to the raise end position. It is a longitudinal cross-sectional view of the delivery container shown in FIG. 1, Comprising: It is a figure which shows the state which raised the raising / lowering member and the support body to the raising end position, respectively. It is a longitudinal cross-sectional view of the delivery container which concerns on 2nd Embodiment of this invention. It is a longitudinal cross-sectional view of the delivery container shown in FIG. 4, Comprising: It is a figure which shows the state which raised the support body to the raise end position. It is a longitudinal cross-sectional view of the delivery container shown in FIG. 4, Comprising: It is a figure which shows the state which raised the raising / lowering member and the support body to the raising end position, respectively.

(First embodiment)
Hereinafter, a feeding container according to a first embodiment of the present invention will be described with reference to FIGS. 1 to 3 with reference to the drawings.
As shown in FIG. 1, the feeding container 10 feeds and uses the rod-shaped contents X accommodated therein. The rod-shaped contents X are made of, for example, cosmetics (lipstick, lip balm, stick eye shadow, etc.), drugs, glue, or the like formed in a rod shape. The feeding container 10 includes an outer cylinder part 11, an inner cylinder part 12, an elevating member 13, an operation part 14, and an overcap 15.

  In the present embodiment, the central axes of the outer cylinder part 11, the inner cylinder part 12, and the overcap 15 are located on a common axis. Hereinafter, the common axis is referred to as an axis O, the overcap 15 side along the axis O is referred to as an upper side, and the opposite side is referred to as a lower side. In a plan view as viewed from the direction of the axis O, the direction orthogonal to the axis O is referred to as the radial direction, and the direction around the axis O is defined as the circumferential direction.

  A spiral groove 16 is formed on the inner peripheral surface of the outer cylinder portion 11. In the present embodiment, the outer cylinder portion 11 includes a bottomed cylindrical decorative cylinder 17 and a spiral cylinder 18 fitted in the decorative cylinder 17, and the spiral groove 16 is formed in the spiral cylinder 18. Is formed. A through opening 19 is formed at the bottom of the decorative cylinder 17. The through opening 19 is arranged coaxially with the axis O and penetrates the bottom in the direction of the axis O.

  The inner cylinder part 12 is disposed in the outer cylinder part 11 so as not to move in the direction of the axis O and to move (rotate) around the axis O. A guide hole 20 extending in the axis O direction is formed in the inner cylinder portion 12. The size of the inner cylinder part 12 in the direction of the axis O is larger than the size of the outer cylinder part 11 in the direction of the axis O, and the lower part of the inner cylinder part 12 is fitted into the outer cylinder part 11. The upper part of the projection protrudes upward from the inside of the outer cylinder part 11. The guide hole 20 is formed in the lower portion of the inner cylinder portion 12 and opens downward from the lower end edge of the inner cylinder portion 12. A plurality of guide holes 20 are arranged at intervals in the circumferential direction (in this embodiment, a pair so as to face each other with the axis O sandwiched in the radial direction).

  The elevating member 13 is disposed in the inner cylinder portion 12 so as to be movable up and down along the direction of the axis O. The elevating member 13 includes a guided cylinder portion 21 and a cylindrical support body 22. The guided cylinder portion 21 and the support 22 are arranged coaxially with the axis O.

  The guided cylinder portion 21 is positioned on the inner side in the axis O direction with respect to the inner cylinder portion 12, and is inserted into the inner cylinder portion 12. A guided projection 23 is provided on the outer peripheral surface of the guided cylinder portion 21. The guided projection 23 is engaged with the spiral groove 16 through the guide hole 20. An internal thread portion 24 is provided on the inner peripheral surface of the guided cylinder portion 21. The female screw portion 24 and the guided projection 23 are shifted in the direction of the axis O, and the female screw portion 24 is positioned above the guided projection 23. In the illustrated example, the female screw portion 24 is limited to the reduced diameter portion 21 a provided in the guided cylinder portion 21.

  The support 22 is disposed in the guided cylinder portion 21 so as to be freely raised. The support body 22 includes a support tray 25 in which the rod-shaped contents X are erected upward, and an engagement cylinder 26 extending downward from the support tray 25. The support tray 25 is formed in an annular shape, and a piercing projection 27 that is pierced into the rod-shaped contents X is provided upright on the inner peripheral edge of the support tray 25.

  The support tray 25 is positioned below the upper end of the guided cylinder portion 21, and the elevating member 13 positions the lower end portion of the rod-shaped content X above the support tray 25 in the guided cylinder portion 21. It is accommodated in the upper end part which is a part to perform. On the inner peripheral surface of the upper end portion of the guided cylinder portion 21, a locking projection 28 that locks the rod-shaped contents X in the direction of the axis O is provided. The lower end portion of the rod-shaped content X is fitted into the upper end portion of the guided cylinder portion 21 in a fixed state.

  The support body 22 is screwed into the guided cylinder portion 21 so as to be able to move up and down. The support body 22 is raised by rotating to one side along the axis O with respect to the guided cylinder portion 21, and with respect to the guided cylinder portion 21. Then, it is lowered by rotating to the other side, which is the opposite side of one side along the axis O. In the present embodiment, a male screw portion 29 corresponding to the female screw portion 24 is formed on the outer peripheral surface of the engagement cylinder 26. The male screw portion 29 is formed over a wider range in the axis O direction than the female screw portion 24. In the following, one side along the axis O is referred to as an ascending side around the axis O, and the other side along the axis O is referred to as a descending side around the axis O.

  Each of the guided cylinder portion 21 and the support body 22 is provided with an engaging protrusion 30 that engages with each other so as to be able to climb over the axis O. The engaging protrusions 30 engage with each other to restrict the rotation of the support 22 to the ascending side around the axis O with respect to the guided cylinder portion 21, and allow this rotation when getting over the axis O with respect to each other. To do. Out of the engaging protrusions 30, the outer protrusion 30 a provided in the guided cylinder part 21 is adjacent to the reduced diameter part 21 a from above in the guided cylinder part 21, and the inner protrusion 30 b provided in the support 22 is The engaging cylinder 26 is adjacent to the male threaded portion 29 from above.

  A ratchet portion 31 is further provided on the guided cylinder portion 21 and the support body 22. The ratchet portion 31 restricts the rotation of the support 22 relative to the guided cylinder 21 to the downward side around the axis O while allowing the rotation of the support 22 around the axis O relative to the guided cylinder 21. To do. The ratchet portion 31 is provided with an outer ratchet 31 a provided on the guided cylinder portion 21 and an inner ratchet 31 b provided on the support 22. The outer ratchet 31a and the inner ratchet 31b are engaged with each other so as to be able to get over the ascending side around the axis O and so as not to get over the lower side around the axis O. The outer ratchet 31 a is adjacent to the reduced diameter portion 21 a from below in the guided cylinder portion 21, and the inner ratchet 31 b is adjacent to the male screw portion 29 in the engaging cylinder 26 from below.

  The operation unit 14 is formed in a cylindrical shape coaxial with the axis O, and is inserted into the engagement cylinder 26. The operation unit 14 is inserted into the cosmetic cylinder 17 from below through upward through the through opening 19. An annular flange portion 32 is formed at the lower end of the operation portion 14 so as to protrude outward in the radial direction. The flange portion 32 is in contact with the peripheral edge portion of the through opening 19 at the bottom portion of the decorative cylinder 17 from below.

  The operation portion 14 is formed with an operation groove 33 that is exposed downward and allows the operation piece Y to enter from the outside. A pair of operation grooves 33 are formed on the lower surface of the flange portion 32, and are provided so as to sandwich the axis O therebetween. The pair of operation grooves 33 extend along the same straight line passing through the axis O in the bottom view when the operation unit 14 is viewed from below. In the pair of operation grooves 33, for example, a flat operation piece Y such as a coin is allowed to enter integrally.

  The operation portion 14 is disposed in the outer cylinder portion 11 so as to be rotatable around the axis O. When the operation unit 14 rotates about the axis O, the operation unit 14 engages with the support body 22 to raise the support body 22 with respect to the guided cylinder part 21. The support 22 and the operation unit 14 engage with each other such that when the operation unit 14 rotates about the axis O, the support 22 and the operation unit 14 are relatively unrotatable about the axis O and relatively moveable up and down along the direction of the axis O. .

The operation portion 14 and the support body 22 are provided with engagement ribs 34 that engage with each other around the axis O so as not to be able to climb over each other. The engagement rib 34 is formed in a plate shape whose front and back faces in the circumferential direction and is long in the direction of the axis O. Out of the engagement ribs 34, the outer rib 34 a provided on the support 22 extends over the entire length in the direction of the axis O on the inner peripheral surface of the engagement cylinder 26, and the inner rib 34 b provided on the operation unit 14 14 extends over the entire length in the direction of the axis O. The upper end of the outer rib 34 a is connected to the lower surface of the support tray 25, and the lower end of the inner rib 34 b is connected to the upper surface of the flange portion 32.
Instead of providing the engagement ribs 34 on both the operation unit 14 and the support 22, the engagement ribs 34 are provided on one of the operation unit 14 and the support 22, and the other side has the axis O direction. A vertical groove may be provided in which the engagement rib 34 is fitted so as to be movable up and down in the direction of the axis O.

  The overcap 15 is detachably fitted to the outer cylinder portion 11. The overcap 15 is formed in a top cylinder shape and covers the inner cylinder portion 12 from the outside.

Next, the operation of the feeding container 10 will be described.
In addition, in the delivery container 10 shown in FIG. 1, the raising / lowering member 13 and the support body 22 are located in the descent | fall end position (bottom dead center), respectively.

  When using the rod-shaped contents X, first, after removing the overcap 15 from the outer cylinder part 11, for example, the outer cylinder part 11 and the inner cylinder part 12 are held separately and rotated relatively. At this time, the guided member 23 of the inner cylinder part 12 slides in the guide hole 20 and the spiral groove 16, so that the elevating member 13 rises in the inner cylinder part 12. Thereby, the protrusion amount from the inner cylinder part 12 and the outer cylinder part 11 of the rod-shaped content X is adjusted, and the rod-shaped content X is used from an upper end part.

  As shown in FIG. 2, even when the remaining amount of the rod-shaped contents X is small and the elevating member 13 is raised to the rising end position (top dead center), the guided cylinder portion 21 of the rod-shaped contents X is used. When the protrusion from the terminal disappears or becomes shorter, the operation unit 14 is rotated around the axis O while being engaged with the support 22. At this time, in this embodiment, as shown in FIG. 3, the operation piece Y enters the operation groove 33 of the operation unit 14 from below, and the operation piece Y is rotated about the axis O. Then, the operation piece Y engages with the operation groove 33, and the operation piece Y rotates together with the operation unit 14. At this time, the engagement ribs 34 of the operation unit 14 and the support 22 are engaged, so that the support 22 and the operation unit 14 are relatively unrotatable around the axis O and along the direction of the axis O. As a result, the support 22 rotates together with the operation unit 14.

  Here, the support body 22 is screwed into the guided cylinder portion 21 so as to be movable up and down. When the support body 22 is rotated to the ascending side around the axis O via the operation piece Y and the operation portion 14, the guided body 22 is guided. The engagement protrusions 30 in the cylindrical portion 21 and the support body 22 each move about the axis O, and the support body 22 tends to rise in the guided cylindrical portion 21. At this time, the support body 22 moves up in the guided cylinder section 21 while the ratchet sections 31 in the guided cylinder section 21 and the support body 22 get over each other around the axis O. As a result, as shown in FIG. 3, the lower end portion of the rod-shaped content X can be greatly protruded upward from the guided cylinder portion 21, and the lower end portion of the rod-shaped content X can be exposed to the outside. .

  After that, for example, when the rod-shaped contents X are applied while being pressed against the portion to be coated, a rotational force directed downward on the axis O is applied to the support 22 via the rod-shaped contents X. In addition, the rotation of the support 22 toward the descending side can be restricted by the ratchet portion 31. Thereby, it becomes possible to control the unintentional descent | fall of the support body 22, and the convenience of the delivery container 10 can be improved.

As described above, according to the feeding container 10 according to the present embodiment, when the remaining amount of the rod-shaped contents X decreases, the operation unit 14 is rotated around the axis O while being engaged with the support body 22, By raising the support 22 with respect to the guided cylinder portion 21, the lower end portion of the rod-shaped content X can be exposed to the outside with a small force.
Further, the support 22 can be smoothly raised within the guided cylinder portion 21 by rotating the support 22 together with the operation portion 14 and rotating the support 22 toward the rising side around the axis O. Therefore, the lower end portion of the rod-shaped content X can be reliably exposed to the outside with a small force.
Further, when the operation piece Y that has entered the operation groove 33 rotates around the axis O, the operation piece Y rotates together with the operation unit 14 by engaging with the operation groove 33, so that the operation unit 14 is directly connected from the outside. The operation unit 14 can be rotated through the operation piece Y without being operated, and the operability of the feeding container 10 can be improved and an unexpected operation can be prevented.

In addition, as shown in FIG. 2, in the state where the engagement protrusions 30 in the guided cylinder portion 21 and the support body 22 are engaged with each other, for example, the operating portion 14 is inadvertently applied with a rotational force. However, when the rotational force is very small, the rotation of the support 22 is restricted by the engagement protrusions 30 and the unintended rotation of the support 22 is restricted.
On the other hand, in this state, when the support body 22 is rotated to the ascending side around the axis O via the operation unit 14, the engaging protrusions 30 in the guided cylinder part 21 and the support body 22 are simply moved around the axis O with respect to each other. The restriction on the rotation of the support 22 is released simply by getting over the vehicle.
As described above, by providing the engagement protrusions 30 on the guided cylinder portion 21 and the support body 22 separately, the unintended rotation of the support body 22 can be restricted while suppressing the force required for the rotation of the support body 22. it can. Thereby, the operativity of the delivery container 10 can be improved.

(Second Embodiment)
Next, the delivery container 40 which concerns on 2nd Embodiment of this invention is demonstrated with reference to FIGS.
In the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, description thereof is omitted, and only different points will be described.

  In the feeding container 40 of the present embodiment, as shown in FIG. 4, instead of screwing the support body 22 into the guided cylinder portion 21 so as to be movable up and down, the support body 22 is placed in the guided cylinder portion 21. It is made to pass through without screwing. The inner peripheral surface of the guided cylinder portion 21 is formed by connecting a lower small-diameter portion 42 and an upper large-diameter portion 41 via a stepped portion 43, and the outer peripheral edge portion of the support tray 25 of the support 22. Is supported from below by the step portion 43, and the engagement cylinder 26 is inserted into the small diameter portion 42.

  The small-diameter portion 42 is provided with an annular convex portion 44 that is continuous or intermittent in the circumferential direction. The annular convex portion 44 is detachably fitted in an annular concave portion 45 formed on the outer peripheral surface of the engagement cylinder 26. A plurality of annular recesses 45 are formed at intervals in the axis O direction. The annular convex portion 44 is able to get over the portion located between the annular concave portions 45 adjacent in the axis O direction on the outer peripheral surface of the engagement cylinder 26 in the axis O direction.

  An outer rib 34 a is provided on the inner peripheral surface of the engagement cylinder 26 in the same manner as the feeding container 40 of the first embodiment. However, in the present embodiment, instead of providing the outer rib 34 a on the inner peripheral surface of the engagement cylinder 26 over the entire length in the axis O direction, the lower end of the outer rib 34 a is arranged above the lower end of the engagement cylinder 26. doing. The outer rib 34a and the annular recess 45 are shifted in the direction of the axis O.

A female screw cylinder 46 is erected on the peripheral edge of the through opening 19 at the bottom of the decorative cylinder 17. The female screw cylinder 46 is coaxial with the axis O and is inserted into the lower end portion of the engagement cylinder 26.
The operating portion 14 is screwed into the female screw cylinder 46 and is engaged by abutting against the support 22 from below. In the illustrated example, the upper end of the operation unit 14 is in contact with the lower end of the outer rib 34 a of the support 22 from below.

Next, the operation of the feeding container 40 will be described.
In addition, in the delivery container 40 shown in FIG. 4, the raising / lowering member 13 and the support body 22 are each located in the descent | fall position.

  In the feeding container 40, when the remaining amount of the rod-shaped contents X is reduced, as shown in FIG. 5, the operation unit 14 is rotated around the axis O with the elevating member 13 positioned at the lower end position. The inside of the female screw portion 24 is raised. At this time, the upper end of the operation part 14 engages and pushes up with the lower end of the outer rib 34a of the support body 22, the support body 22 rises together with the operation part 14, and the lower end part of the rod-shaped content X is the guided cylinder part 21. It protrudes greatly from above. In this state, as shown in FIG. 6, the lower end portion of the rod-shaped content X can be exposed to the outside by raising the elevating member 13 with respect to the inner cylinder portion 12.

  The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.

  For example, in the embodiment, the lower end portion of the rod-shaped content X is fitted in the upper end portion of the guided cylinder portion 21 in a fixed state, but the rod-shaped content X is loosely fitted in the guided cylinder portion 21. Etc. may be appropriately changed.

  It is also possible to project the operation piece Y on the upper surface, the lower surface or the outer surface of the peripheral wall of the overcap 15. In this case, after the overcap 15 is removed from the outer cylinder portion 11, the operation piece Y can enter the operation groove 33 via the removed overcap 15. For example, when the operation piece Y protrudes downward from the top wall portion of the overcap 15, the overcap 15 is removed from the outer cylinder portion 11, and then the overcap 15 is inverted in the direction of the axis O and the outer cylinder By attaching to the part 11, the operation piece Y can enter the operation groove 33 and the like.

  Further, the operation piece Y is not limited to a flat plate shape (that is, a linear shape in a plan view of the operation piece Y). For example, the operation piece Y may be formed in a cross shape or a star shape in a plan view, and the operation groove 33 into which the operation piece Y enters and can be engaged is formed.

Further, the overcap 15, the piercing protrusion 27, and the locking protrusion 28 may not be provided. Only one of the engagement protrusion 30 and the ratchet portion 31 may be provided, or both may not be provided.
Furthermore, a configuration in which the decorative cylinder 17 and the spiral cylinder 18 are integrally formed as the outer cylinder portion 11 may be employed.

  In addition, it is possible to appropriately replace the constituent elements in the embodiment with known constituent elements without departing from the spirit of the present invention, and the above-described modified examples may be appropriately combined.

DESCRIPTION OF SYMBOLS 10, 40 Feeding container 11 Outer cylinder part 12 Inner cylinder part 13 Elevating member 14 Operation part 16 Spiral groove 20 Guide hole 21 Guided cylinder part 22 Support body 23 Guide protrusion 25 Support tray 30 Engagement protrusion 31 Ratchet part 33 Operation groove O Axis X Bar-shaped contents Y Operation piece

Claims (4)

An outer cylinder portion having a spiral groove formed on the inner peripheral surface;
An inner cylinder portion that is disposed in the outer cylinder portion so as not to move in the axial direction and is movable around the axis line, and in which a guide hole extending in the axial direction is formed;
Elevating and lowering provided in the inner cylinder portion so as to be movable up and down along the axial direction, and having a guide projection that engages with the spiral groove through the guide hole and a support plate on which the rod-shaped contents are erected upward. A feeding container comprising a member,
The elevating member includes a guided cylinder part in which the guided projection protrudes from an outer peripheral surface, and a support body that includes the support plate and is disposed so as to be freely raised in the guided cylinder part. The lower end portion of the rod-shaped contents is accommodated in the portion located above the support pan in the cylindrical portion,
In the outer cylinder portion, an operation is provided so as to be rotatable around an axis line, and when rotating around the axis line, an operation of engaging the support body and raising the support body relative to the guided cylinder section. Part is provided ,
The support and the operation unit engage with each other so that the operation unit rotates about the axis and is relatively non-rotatable about the axis and relatively movable along the axis direction.
The support body is screwed into the guided cylinder portion so as to be movable up and down, and is lifted by rotating to one side along the axis with respect to the guided cylinder portion, and the axis line with respect to the guided cylinder portion. A feeding container which descends by rotating to the other side along the circumference . The guided cylinder part and the support body are provided with respective engaging protrusions that engage with each other so as to be able to climb over an axis and restrict the rotation of the support body to the one side with respect to the guided cylinder part. ,
The engaging protrusions allow rotation of the support to the one side with respect to the guided cylinder portion when the engagement protrusions have crossed each other around an axis ;
With the engagement protrusion allowing rotation of the support to the one side with respect to the guided cylinder, the support rises by rotating to the one side with respect to the guided cylinder. The feeding container according to claim 1, wherein: The guided cylinder part and the support body allow the support body to rotate relative to the guided cylinder part while allowing the support body to rotate toward the other side. claim 1 or 2 feeding container wherein the ratchet portion for regulating is provided. An operation groove is formed in the lower end portion of the operation portion, which is exposed downward and allows an operation piece to enter from the outside.
One said operation piece that has entered the operation groove is when rotating about the axis, the operating piece of claims 1 to 3, characterized in that rotates together with the operating portion by engaging with the operation groove The feeding container according to claim 1.

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